Functional groups

Sequence pre-processing

Summary statistics for each of the functional groups declared in the app.

The app includes the P1 and P11 naive datasets and the P4 non-naive dataset.

For P1 and P11 the following filtration criteria were applied:

  • Functional sequence, no stop codons or frame shifts.
  • Sequences which start from position 1 of the V gene.
  • Sequences which didn’t have gaps open (-) and didn’t include any N’s
  • After changing into group annotations, sequences which had more than a single assignment in naive repertoires were remove.

The groups were created with similarity of 95% based on complete linkage and functional sequences and up to position 318.

Group devision by 95% similarity

Groups Repertoire normalization

The current groups threshold and the possible states are in the table below.

Going over the groups showed several thins

  1. We saw potential duplication events, such as in the case of IGHV1-69*04 in sample P1_I50 from group G8, where we think this allele might be sitting in the duplicated gene.
  2. An interesting event involving a duplicated gene is in the case of IGHV3-43D from group G22. In this group 5 alleles are present, where three alleles are supposedly from the duplicated gene. Allele D*04 and D*04_G4A goes in states two with allele 01, in the J6 heterozygous samples we saw a double single chromosome deletion event. This occurred in 7 individuals and raises the question if maybe both alleles are sitting in the same location on the chromosome and are not acutely deleted.
  3. Group 19 and genes IGHV3-23 and IGHV3-23D, showed a very low usage for the D gene.
  4. From the usage results, we suspect that the gene in IGHV3-35G21 might be a pseudo gene.
  5. We saw several signle chromosome deletion events in gene V3-66 from the group G25, which also has the gene V3-53.
  6. In the group IGHV3-64G27, we suspect that allele 3-64*02 might be a pseudo allele due to very low usage.
  7. In group G34 there are only two states, and include two genes. In state one only an allele from V4-30-2 appears. While in state 2, one allele V4-30-2 and one from V4-30-4 appears.
  8. In group G48 there is a novel allele V6-1*01_T91C. This allele only appears in state 2 and is lowly expressed, much more when the max mutation value is 0.

Based on the threshold we compared the alleles present in IMGT versus those that passed the threshold.

We plotted the relative repertoire plotted. Each dot is an individual and the colors shows the zygousity state while the shape indicates the project.

Group Checklist

IGHV1-18 - G1

Allele appearnce

The group of IGHV1-18 includes 4 alleles, 4 out of the alleles are functional.

For each allele we counted the number of appearances across the population, any appearance was considered valid.

Group alignment

Based on the viewed alleles, we calculated the distance between the germline sequences.

Sequence depth

To examine the potential cutoff we observed the sequence depth for each allele

Absolute cutoff

We set an initial cutoff of \(0.01\%\) to determine the potential genotype priors. For this cutoff we examined the zygousity state, such as homozygousity, heterozygousity and so on.

With the selected cutoff we saw that there are 2 zygousity states.

Observations

This section is editable by clicking on the edit button below. To refresh the section click on the refresh button

You can access the file also from here

Conclusions

From the results we believe that the cutoff for this group should be

and for the adjusted states the allele combinations and the relations are stated in the table below.

Allele specific cutoff

IGHV1-2 - G2

Allele appearnce

The group of IGHV1-2 includes 7 alleles, 7 out of the alleles are functional.

For each allele we counted the number of appearances across the population, any appearance was considered valid.

Group alignment

Based on the viewd alleles, we calculated the distance between the germline sequences.

Sequence depth

To examine the potential cutoff we observed the sequence depth for each allele

Absolute cutoff

We set an initial cutoff of \(0.01\%\) to determine the potential genotype priors. For this cutoff we examined the zygousity state, such as homozygousity, heterozygousity and so on.

With the selected cutoff we saw that there are 2 zygousity states.

Observations

This section is editable by clicking on the edit button below. To refresh the section click on the refresh button

You can access the file also from here

Conclusions

From the results we believe that the cutoff for this group should be

and for the adjusted states the allele combinations and the relations are stated in the table below.

Allele specific cutoff

IGHV1-24 - G3

Allele appearnce

The group of IGHV1-24 includes 1 alleles, 1 out of the alleles are functional.

For each allele we counted the number of appearances across the population, any appearance was considered valid.

Sequence depth

To examine the potential cutoff we observed the sequence depth for each allele

Observations

For this group we’ve seen a single allele, hence the general summary statistics do not apply here and were omitted.

This section is editable by clicking on the edit button below. To refresh the section click on the refresh button

You can access the file also from here

Conclusions

Because we observed a single allele in this group we set the cutoff to \(0.01%\) absolute threshold (the relative repertoire frequency). The plot below shows the frequency of the group above the threshold line.

IGHV1-3 - G4

Allele appearnce

The group of IGHV1-3 includes 5 alleles, 5 out of the alleles are functional.

For each allele we counted the number of appearances across the population, any appearance was considered valid.

Group alignment

Based on the viewd alleles, we calculated the distance between the germline sequences.

Sequence depth

To examine the potential cutoff we observed the sequence depth for each allele

Absolute cutoff

We set an initial cutoff of \(0.01\%\) to determine the potential genotype priors. For this cutoff we examined the zygousity state, such as homozygousity, heterozygousity and so on.

With the selected cutoff we saw that there are 3 zygousity states.

Observations

This section is editable by clicking on the edit button below. To refresh the section click on the refresh button

You can access the file also from here

Conclusions

From the results we believe that the cutoff for this group should be

and for the adjusted states the allele combinations and the relations are stated in the table below.

Allele specific cutoff

IGHV1-45 - G5

Allele appearnce

The group of IGHV1-45 includes 3 alleles, 3 out of the alleles are functional.

For each allele we counted the number of appearances across the population, any appearance was considered valid.

Group alignment

Based on the viewd alleles, we calculated the distance between the germline sequences.

Sequence depth

To examine the potential cutoff we observed the sequence depth for each allele

Absolute cutoff

We set an initial cutoff of \(0.5\%\) to determine the potential genotype priors. For this cutoff we examined the zygousity state, such as homozygousity, heterozygousity and so on.

With the selected cutoff we saw that there are 3 zygousity states.

Observations

This section is editable by clicking on the edit button below. To refresh the section click on the refresh button

You can access the file also from here

Conclusions

From the results we believe that the cutoff for this group should be

and for the adjusted states the allele combinations and the relations are stated in the table below.

Allele specific cutoff

IGHV1-46 - G6

Allele appearnce

The group of IGHV1-46 includes 4 alleles, 4 out of the alleles are functional.

For each allele we counted the number of appearances across the population, any appearance was considered valid.

Group alignment

Based on the viewd alleles, we calculated the distance between the germline sequences.

Sequence depth

To examine the potential cutoff we observed the sequence depth for each allele

Absolute cutoff

We set an initial cutoff of \(0.01\%\) to determine the potential genotype priors. For this cutoff we examined the zygousity state, such as homozygousity, heterozygousity and so on.

With the selected cutoff we saw that there are 2 zygousity states.

Observations

This section is editable by clicking on the edit button below. To refresh the section click on the refresh button

You can access the file also from here

Conclusions

From the results we believe that the cutoff for this group should be

and for the adjusted states the allele combinations and the relations are stated in the table below.

Allele specific cutoff

IGHV1-58 - G7

Allele appearnce

The group of IGHV1-58 includes 3 alleles, 3 out of the alleles are functional.

For each allele we counted the number of appearances across the population, any appearance was considered valid.

Group alignment

Based on the viewd alleles, we calculated the distance between the germline sequences.

Sequence depth

To examine the potential cutoff we observed the sequence depth for each allele

Absolute cutoff

We set an initial cutoff of \(0.5\%\) to determine the potential genotype priors. For this cutoff we examined the zygousity state, such as homozygousity, heterozygousity and so on.

With the selected cutoff we saw that there are 2 zygousity states.

Observations

This section is editable by clicking on the edit button below. To refresh the section click on the refresh button

You can access the file also from here

Conclusions

Conclusions

From the results we believe that the cutoff for this group should be

and for the adjusted states the allele combinations and the relations are stated in the table below.

Allele specific cutoff

IGHV1-69/IGHV1-69D - G8

Allele appearnce

The group of IGHV1-69/IGHV1-69D includes 21 alleles, 21 out of the alleles are functional.

For each allele we counted the number of appearances across the population, any appearance was considered valid.

Group alignment

Based on the viewd alleles, we calculated the distance between the germline sequences.

Sequence depth

To examine the potential cutoff we observed the sequence depth for each allele

Absolute cutoff

We set an initial cutoff of \(0.5\%\) to determine the potential genotype priors. For this cutoff we examined the zygousity state, such as homozygousity, heterozygousity and so on.

With the selected cutoff we saw that there are 4 zygousity states.

Observations

This section is editable by clicking on the edit button below. To refresh the section click on the refresh button

You can access the file also from here

Conclusions

From the results we believe that the cutoff for this group should be

and for the adjusted states the allele combinations and the relations are stated in the table below.

Allele specific cutoff

IGHV1-69-2 - G9

Allele appearnce

The group of IGHV1-69-2 includes 2 alleles, 2 out of the alleles are functional.

For each allele we counted the number of appearances across the population, any appearance was considered valid.

Sequence depth

To examine the potential cutoff we observed the sequence depth for each allele

Observations

For this group we’ve seen a single allele, hence the general summary statistics do not apply here and were omitted.

This section is editable by clicking on the edit button below. To refresh the section click on the refresh button

You can access the file also from here

Conclusions

From the results we believe that the cutoff for this group should be

and for the adjusted states the allele combinations and the relations are stated in the table below.

Allele specific cutoff

IGHV1-8 - G10

Allele appearnce

The group of IGHV1-8 includes 3 alleles, 3 out of the alleles are functional.

For each allele we counted the number of appearances across the population, any appearance was considered valid.

Group alignment

Based on the viewd alleles, we calculated the distance between the germline sequences.

Sequence depth

To examine the potential cutoff we observed the sequence depth for each allele

Absolute cutoff

We set an initial cutoff of \(0.5\%\) to determine the potential genotype priors. For this cutoff we examined the zygousity state, such as homozygousity, heterozygousity and so on.

With the selected cutoff we saw that there are 2 zygousity states.

Observations

This section is editable by clicking on the edit button below. To refresh the section click on the refresh button

You can access the file also from here

Conclusions

From the results we believe that the cutoff for this group should be

and for the adjusted states the allele combinations and the relations are stated in the table below.

Allele specific cutoff

IGHV2-26 - G11

Allele appearnce

The group of IGHV2-26 includes 4 alleles, 4 out of the alleles are functional.

For each allele we counted the number of appearances across the population, any appearance was considered valid.

Group alignment

Based on the viewd alleles, we calculated the distance between the germline sequences.

Sequence depth

To examine the potential cutoff we observed the sequence depth for each allele

Absolute cutoff

We set an initial cutoff of \(0.5\%\) to determine the potential genotype priors. For this cutoff we examined the zygousity state, such as homozygousity, heterozygousity and so on.

With the selected cutoff we saw that there are 2 zygousity states.

Observations

This section is editable by clicking on the edit button below. To refresh the section click on the refresh button

You can access the file also from here

Conclusions

From the results we believe that the cutoff for this group should be

and for the adjusted states the allele combinations and the relations are stated in the table below.

Allele specific cutoff

IGHV2-5 - G12

Allele appearnce

The group of IGHV2-5 includes 8 alleles, 8 out of the alleles are functional.

For each allele we counted the number of appearances across the population, any appearance was considered valid.

Group alignment

Based on the viewd alleles, we calculated the distance between the germline sequences.

Sequence depth

To examine the potential cutoff we observed the sequence depth for each allele

Absolute cutoff

We set an initial cutoff of \(0.5\%\) to determine the potential genotype priors. For this cutoff we examined the zygousity state, such as homozygousity, heterozygousity and so on.

With the selected cutoff we saw that there are 2 zygousity states.

Observations

This section is editable by clicking on the edit button below. To refresh the section click on the refresh button

You can access the file also from here

Conclusions

From the results we believe that the cutoff for this group should be

and for the adjusted states the allele combinations and the relations are stated in the table below.

Allele specific cutoff

IGHV2-70/IGHV2-70D - G13

Allele appearnce

The group of IGHV2-70/IGHV2-70D includes 20 alleles, 20 out of the alleles are functional.

For each allele we counted the number of appearances across the population, any appearance was considered valid.

Group alignment

Based on the viewd alleles, we calculated the distance between the germline sequences.

Sequence depth

To examine the potential cutoff we observed the sequence depth for each allele

Absolute cutoff

We set an initial cutoff of \(0.5\%\) to determine the potential genotype priors. For this cutoff we examined the zygousity state, such as homozygousity, heterozygousity and so on.

With the selected cutoff we saw that there are 3 zygousity states.

Observations

This section is editable by clicking on the edit button below. To refresh the section click on the refresh button

You can access the file also from here

Conclusions

From the results we believe that the cutoff for this group should be

and for the adjusted states the allele combinations and the relations are stated in the table below.

Allele specific cutoff

IGHV3-11 - G14

Allele appearnce

The group of IGHV3-11 includes 5 alleles, 5 out of the alleles are functional.

For each allele we counted the number of appearances across the population, any appearance was considered valid.

Group alignment

Based on the viewd alleles, we calculated the distance between the germline sequences.

Sequence depth

To examine the potential cutoff we observed the sequence depth for each allele

Absolute cutoff

We set an initial cutoff of \(0.5\%\) to determine the potential genotype priors. For this cutoff we examined the zygousity state, such as homozygousity, heterozygousity and so on.

With the selected cutoff we saw that there are 2 zygousity states.

Observations

This section is editable by clicking on the edit button below. To refresh the section click on the refresh button

You can access the file also from here

Conclusions

From the results we believe that the cutoff for this group should be

and for the adjusted states the allele combinations and the relations are stated in the table below.

Allele specific cutoff

IGHV3-13 - G15

Allele appearnce

The group of IGHV3-13 includes 5 alleles, 5 out of the alleles are functional.

For each allele we counted the number of appearances across the population, any appearance was considered valid.

Group alignment

Based on the viewd alleles, we calculated the distance between the germline sequences.

Sequence depth

To examine the potential cutoff we observed the sequence depth for each allele

Absolute cutoff

We set an initial cutoff of \(0.5\%\) to determine the potential genotype priors. For this cutoff we examined the zygousity state, such as homozygousity, heterozygousity and so on.

With the selected cutoff we saw that there are 3 zygousity states.

Observations

This section is editable by clicking on the edit button below. To refresh the section click on the refresh button

You can access the file also from here

Conclusions

From the results we believe that the cutoff for this group should be

and for the adjusted states the allele combinations and the relations are stated in the table below.

Allele specific cutoff

IGHV3-15 - G16

Allele appearnce

The group of IGHV3-15 includes 9 alleles, 9 out of the alleles are functional.

For each allele we counted the number of appearances across the population, any appearance was considered valid.

Group alignment

Based on the viewd alleles, we calculated the distance between the germline sequences.

Sequence depth

To examine the potential cutoff we observed the sequence depth for each allele

Absolute cutoff

We set an initial cutoff of \(0.5\%\) to determine the potential genotype priors. For this cutoff we examined the zygousity state, such as homozygousity, heterozygousity and so on.

With the selected cutoff we saw that there are 2 zygousity states.

Observations

This section is editable by clicking on the edit button below. To refresh the section click on the refresh button

You can access the file also from here

Conclusions

From the results we believe that the cutoff for this group should be

and for the adjusted states the allele combinations and the relations are stated in the table below.

Allele specific cutoff

IGHV3-20 - G17

Allele appearnce

The group of IGHV3-20 includes 2 alleles, 2 out of the alleles are functional.

For each allele we counted the number of appearances across the population, any appearance was considered valid.

Group alignment

Based on the viewd alleles, we calculated the distance between the germline sequences.

Sequence depth

To examine the potential cutoff we observed the sequence depth for each allele

Absolute cutoff

We set an initial cutoff of \(0.5\%\) to determine the potential genotype priors. For this cutoff we examined the zygousity state, such as homozygousity, heterozygousity and so on.

With the selected cutoff we saw that there are 2 zygousity states.

Observations

This section is editable by clicking on the edit button below. To refresh the section click on the refresh button

You can access the file also from here

Conclusions

From the results we believe that the cutoff for this group should be

and for the adjusted states the allele combinations and the relations are stated in the table below.

Allele specific cutoff

IGHV3-21 - G18

Allele appearnce

The group of IGHV3-21 includes 7 alleles, 7 out of the alleles are functional.

For each allele we counted the number of appearances across the population, any appearance was considered valid.

Group alignment

Based on the viewd alleles, we calculated the distance between the germline sequences.

Sequence depth

To examine the potential cutoff we observed the sequence depth for each allele

Absolute cutoff

We set an initial cutoff of \(0.5\%\) to determine the potential genotype priors. For this cutoff we examined the zygousity state, such as homozygousity, heterozygousity and so on.

With the selected cutoff we saw that there are 2 zygousity states.

Observations

This section is editable by clicking on the edit button below. To refresh the section click on the refresh button

You can access the file also from here

Conclusions

From the results we believe that the cutoff for this group should be

and for the adjusted states the allele combinations and the relations are stated in the table below.

Allele specific cutoff

IGHV3-23/IGHV3-23D - G19

Allele appearnce

The group of IGHV3-23/IGHV3-23D includes 6 alleles, 6 out of the alleles are functional.

For each allele we counted the number of appearances across the population, any appearance was considered valid.

Group alignment

Based on the viewd alleles, we calculated the distance between the germline sequences.

Sequence depth

To examine the potential cutoff we observed the sequence depth for each allele

Absolute cutoff

We set an initial cutoff of \(0.5\%\) to determine the potential genotype priors. For this cutoff we examined the zygousity state, such as homozygousity, heterozygousity and so on.

With the selected cutoff we saw that there are 2 zygousity states.

Observations

This section is editable by clicking on the edit button below. To refresh the section click on the refresh button

You can access the file also from here

Conclusions

From the results we believe that the cutoff for this group should be

and for the adjusted states the allele combinations and the relations are stated in the table below.

Allele specific cutoff

IGHV3-30/IGHV3-30-3/IGHV3-30-5/IGHV3-33 - G20

Allele appearnce

The group of IGHV3-30/IGHV3-30-3/IGHV3-30-5/IGHV3-33 includes 34 alleles, 34 out of the alleles are functional.

For each allele we counted the number of appearances across the population, any appearance was considered valid.

Group alignment

Based on the viewd alleles, we calculated the distance between the germline sequences.

Sequence depth

To examine the potential cutoff we observed the sequence depth for each allele

Absolute cutoff

We set an initial cutoff of \(0.5\%\) to determine the potential genotype priors. For this cutoff we examined the zygousity state, such as homozygousity, heterozygousity and so on.

With the selected cutoff we saw that there are 5 zygousity states.

Observations

This section is editable by clicking on the edit button below. To refresh the section click on the refresh button

You can access the file also from here

Conclusions

From the results we believe that the cutoff for this group should be

and for the adjusted states the allele combinations and the relations are stated in the table below.

Allele specific cutoff

IGHV3-35 - G21

Allele appearnce

The group of IGHV3-35 includes 1 alleles, 1 out of the alleles are functional.

For each allele we counted the number of appearances across the population, any appearance was considered valid.

Sequence depth

To examine the potential cutoff we observed the sequence depth for each allele

Observations

For this group we’ve seen a single allele, hence the general summary statistics do not apply here and were omitted.

This section is editable by clicking on the edit button below. To refresh the section click on the refresh button

You can access the file also from here

Conclusions

IGHV3-43/IGHV3-43D - G22

Allele appearnce

The group of IGHV3-43/IGHV3-43D includes 5 alleles, 5 out of the alleles are functional.

For each allele we counted the number of appearances across the population, any appearance was considered valid.

Group alignment

Based on the viewd alleles, we calculated the distance between the germline sequences.

Sequence depth

To examine the potential cutoff we observed the sequence depth for each allele

Absolute cutoff

We set an initial cutoff of \(0.5\%\) to determine the potential genotype priors. For this cutoff we examined the zygousity state, such as homozygousity, heterozygousity and so on.

With the selected cutoff we saw that there are 3 zygousity states.

Observations

This section is editable by clicking on the edit button below. To refresh the section click on the refresh button

You can access the file also from here

Conclusions

From the results we believe that the cutoff for this group should be

and for the adjusted states the allele combinations and the relations are stated in the table below.

Allele specific cutoff

IGHV3-48 - G23

Allele appearnce

The group of IGHV3-48 includes 4 alleles, 4 out of the alleles are functional.

For each allele we counted the number of appearances across the population, any appearance was considered valid.

Group alignment

Based on the viewd alleles, we calculated the distance between the germline sequences.

Sequence depth

To examine the potential cutoff we observed the sequence depth for each allele

Absolute cutoff

We set an initial cutoff of \(0.5\%\) to determine the potential genotype priors. For this cutoff we examined the zygousity state, such as homozygousity, heterozygousity and so on.

With the selected cutoff we saw that there are 2 zygousity states.

Observations

This section is editable by clicking on the edit button below. To refresh the section click on the refresh button

You can access the file also from here

Conclusions

From the results we believe that the cutoff for this group should be

and for the adjusted states the allele combinations and the relations are stated in the table below.

Allele specific cutoff

IGHV3-49 - G24

Allele appearnce

The group of IGHV3-49 includes 5 alleles, 5 out of the alleles are functional.

For each allele we counted the number of appearances across the population, any appearance was considered valid.

Group alignment

Based on the viewd alleles, we calculated the distance between the germline sequences.

Sequence depth

To examine the potential cutoff we observed the sequence depth for each allele

Absolute cutoff

We set an initial cutoff of \(0.5\%\) to determine the potential genotype priors. For this cutoff we examined the zygousity state, such as homozygousity, heterozygousity and so on.

With the selected cutoff we saw that there are 2 zygousity states.

Observations

This section is editable by clicking on the edit button below. To refresh the section click on the refresh button

You can access the file also from here

Conclusions

From the results we believe that the cutoff for this group should be

and for the adjusted states the allele combinations and the relations are stated in the table below.

Allele specific cutoff

IGHV3-53/IGHV3-66 - G25

Allele appearnce

The group of IGHV3-53/IGHV3-66 includes 10 alleles, 10 out of the alleles are functional.

For each allele we counted the number of appearances across the population, any appearance was considered valid.

Group alignment

Based on the viewd alleles, we calculated the distance between the germline sequences.

Sequence depth

To examine the potential cutoff we observed the sequence depth for each allele

Absolute cutoff

We set an initial cutoff of \(0.5\%\) to determine the potential genotype priors. For this cutoff we examined the zygousity state, such as homozygousity, heterozygousity and so on.

With the selected cutoff we saw that there are 3 zygousity states.

Observations

This section is editable by clicking on the edit button below. To refresh the section click on the refresh button

You can access the file also from here

Conclusions

From the results we believe that the cutoff for this group should be

and for the adjusted states the allele combinations and the relations are stated in the table below.

Allele specific cutoff

IGHV3-62 - G26

Allele appearnce

The group of IGHV3-62 includes 1 alleles, 1 out of the alleles are functional.

No rearrangments were found for this group, hence the general summary statistics do not apply here and were omitted. ## Observations

This section is editable by clicking on the edit button below. To refresh the section click on the refresh button

You can access the file also from here

Conclusions

IGHV3-64/IGHV3-64D - G27

Allele appearnce

The group of IGHV3-64/IGHV3-64D includes 9 alleles, 9 out of the alleles are functional.

For each allele we counted the number of appearances across the population, any appearance was considered valid.

Group alignment

Based on the viewd alleles, we calculated the distance between the germline sequences.

Sequence depth

To examine the potential cutoff we observed the sequence depth for each allele

Absolute cutoff

We set an initial cutoff of \(0.5\%\) to determine the potential genotype priors. For this cutoff we examined the zygousity state, such as homozygousity, heterozygousity and so on.

With the selected cutoff we saw that there are 4 zygousity states.

Observations

This section is editable by clicking on the edit button below. To refresh the section click on the refresh button

You can access the file also from here

Conclusions

From the results we believe that the cutoff for this group should be

and for the adjusted states the allele combinations and the relations are stated in the table below.

Allele specific cutoff

IGHV3-7 - G28

Allele appearnce

The group of IGHV3-7 includes 5 alleles, 5 out of the alleles are functional.

For each allele we counted the number of appearances across the population, any appearance was considered valid.

Group alignment

Based on the viewd alleles, we calculated the distance between the germline sequences.

Sequence depth

To examine the potential cutoff we observed the sequence depth for each allele

Absolute cutoff

We set an initial cutoff of \(0.5\%\) to determine the potential genotype priors. For this cutoff we examined the zygousity state, such as homozygousity, heterozygousity and so on.

With the selected cutoff we saw that there are 2 zygousity states.

Observations

This section is editable by clicking on the edit button below. To refresh the section click on the refresh button

You can access the file also from here

Conclusions

From the results we believe that the cutoff for this group should be

and for the adjusted states the allele combinations and the relations are stated in the table below.

Allele specific cutoff

IGHV3-72 - G29

Allele appearnce

The group of IGHV3-72 includes 2 alleles, 2 out of the alleles are functional.

For each allele we counted the number of appearances across the population, any appearance was considered valid.

Sequence depth

To examine the potential cutoff we observed the sequence depth for each allele

Observations

For this group we’ve seen a single allele, hence the general summary statistics do not apply here and were omitted.

This section is editable by clicking on the edit button below. To refresh the section click on the refresh button

You can access the file also from here

Conclusions

From the results we believe that the cutoff for this group should be

and for the adjusted states the allele combinations and the relations are stated in the table below.

Allele specific cutoff

IGHV3-73 - G30

Allele appearnce

The group of IGHV3-73 includes 2 alleles, 2 out of the alleles are functional.

For each allele we counted the number of appearances across the population, any appearance was considered valid.

Group alignment

Based on the viewd alleles, we calculated the distance between the germline sequences.

Sequence depth

To examine the potential cutoff we observed the sequence depth for each allele

Absolute cutoff

We set an initial cutoff of \(0.5\%\) to determine the potential genotype priors. For this cutoff we examined the zygousity state, such as homozygousity, heterozygousity and so on.

With the selected cutoff we saw that there are 2 zygousity states.

Observations

This section is editable by clicking on the edit button below. To refresh the section click on the refresh button

You can access the file also from here

Conclusions

From the results we believe that the cutoff for this group should be

and for the adjusted states the allele combinations and the relations are stated in the table below.

Allele specific cutoff

IGHV3-74 - G31

Allele appearnce

The group of IGHV3-74 includes 3 alleles, 3 out of the alleles are functional.

For each allele we counted the number of appearances across the population, any appearance was considered valid.

Group alignment

Based on the viewd alleles, we calculated the distance between the germline sequences.

Sequence depth

To examine the potential cutoff we observed the sequence depth for each allele

Absolute cutoff

We set an initial cutoff of \(0.5\%\) to determine the potential genotype priors. For this cutoff we examined the zygousity state, such as homozygousity, heterozygousity and so on.

With the selected cutoff we saw that there are 1 zygousity states.

Observations

This section is editable by clicking on the edit button below. To refresh the section click on the refresh button

You can access the file also from here

Conclusions

From the results we believe that the cutoff for this group should be

and for the adjusted states the allele combinations and the relations are stated in the table below.

Allele specific cutoff

IGHV3-9 - G32

Allele appearnce

The group of IGHV3-9 includes 4 alleles, 4 out of the alleles are functional.

For each allele we counted the number of appearances across the population, any appearance was considered valid.

Group alignment

Based on the viewd alleles, we calculated the distance between the germline sequences.

Sequence depth

To examine the potential cutoff we observed the sequence depth for each allele

Absolute cutoff

We set an initial cutoff of \(0.5\%\) to determine the potential genotype priors. For this cutoff we examined the zygousity state, such as homozygousity, heterozygousity and so on.

With the selected cutoff we saw that there are 2 zygousity states.

Observations

This section is editable by clicking on the edit button below. To refresh the section click on the refresh button

You can access the file also from here

Conclusions

From the results we believe that the cutoff for this group should be

and for the adjusted states the allele combinations and the relations are stated in the table below.

Allele specific cutoff

IGHV4-28 - G33

Allele appearnce

The group of IGHV4-28 includes 7 alleles, 7 out of the alleles are functional.

For each allele we counted the number of appearances across the population, any appearance was considered valid.

Group alignment

Based on the viewd alleles, we calculated the distance between the germline sequences.

Sequence depth

To examine the potential cutoff we observed the sequence depth for each allele

Absolute cutoff

We set an initial cutoff of \(0.5\%\) to determine the potential genotype priors. For this cutoff we examined the zygousity state, such as homozygousity, heterozygousity and so on.

With the selected cutoff we saw that there are 2 zygousity states.

Observations

This section is editable by clicking on the edit button below. To refresh the section click on the refresh button

You can access the file also from here

Conclusions

From the results we believe that the cutoff for this group should be

and for the adjusted states the allele combinations and the relations are stated in the table below.

Allele specific cutoff

IGHV4-30-2/IGHV4-30-4 - G34

Allele appearnce

The group of IGHV4-30-2/IGHV4-30-4 includes 7 alleles, 7 out of the alleles are functional.

For each allele we counted the number of appearances across the population, any appearance was considered valid.

Group alignment

Based on the viewd alleles, we calculated the distance between the germline sequences.

Sequence depth

To examine the potential cutoff we observed the sequence depth for each allele

Absolute cutoff

We set an initial cutoff of \(0.5\%\) to determine the potential genotype priors. For this cutoff we examined the zygousity state, such as homozygousity, heterozygousity and so on.

With the selected cutoff we saw that there are 2 zygousity states.

Observations

This section is editable by clicking on the edit button below. To refresh the section click on the refresh button

You can access the file also from here

Conclusions

From the results we believe that the cutoff for this group should be

and for the adjusted states the allele combinations and the relations are stated in the table below.

Allele specific cutoff

IGHV4-30-4/IGHV4-31 - G35

Allele appearnce

The group of IGHV4-30-4/IGHV4-31 includes 19 alleles, 19 out of the alleles are functional.

For each allele we counted the number of appearances across the population, any appearance was considered valid.

Group alignment

Based on the viewd alleles, we calculated the distance between the germline sequences.

Sequence depth

To examine the potential cutoff we observed the sequence depth for each allele

Absolute cutoff

We set an initial cutoff of \(0.5\%\) to determine the potential genotype priors. For this cutoff we examined the zygousity state, such as homozygousity, heterozygousity and so on.

With the selected cutoff we saw that there are 4 zygousity states.

Observations

This section is editable by clicking on the edit button below. To refresh the section click on the refresh button

You can access the file also from here

Conclusions

From the results we believe that the cutoff for this group should be

and for the adjusted states the allele combinations and the relations are stated in the table below.

Allele specific cutoff

IGHV4-34 - G36

Allele appearnce

The group of IGHV4-34 includes 10 alleles, 10 out of the alleles are functional.

For each allele we counted the number of appearances across the population, any appearance was considered valid.

Group alignment

Based on the viewd alleles, we calculated the distance between the germline sequences.

Sequence depth

To examine the potential cutoff we observed the sequence depth for each allele

Absolute cutoff

We set an initial cutoff of \(0.5\%\) to determine the potential genotype priors. For this cutoff we examined the zygousity state, such as homozygousity, heterozygousity and so on.

With the selected cutoff we saw that there are 1 zygousity states.

Observations

This section is editable by clicking on the edit button below. To refresh the section click on the refresh button

You can access the file also from here

Conclusions

From the results we believe that the cutoff for this group should be

and for the adjusted states the allele combinations and the relations are stated in the table below.

Allele specific cutoff

IGHV4-34 - G37

Allele appearnce

The group of IGHV4-34 includes 2 alleles, 2 out of the alleles are functional.

For this group we have not seen any rearrangements. Hence, no concrete conclusion can be drawn

IGHV4-34 - G38

Allele appearnce

The group of IGHV4-34 includes 1 alleles, 1 out of the alleles are functional.

For this group we have not seen any rearrangements. Hence, no concrete conclusion can be drawn

IGHV4-38-2/IGHV4-39 - G39

Allele appearnce

The group of IGHV4-38-2/IGHV4-39 includes 12 alleles, 12 out of the alleles are functional.

For each allele we counted the number of appearances across the population, any appearance was considered valid.

Group alignment

Based on the viewd alleles, we calculated the distance between the germline sequences.

Sequence depth

To examine the potential cutoff we observed the sequence depth for each allele

Absolute cutoff

We set an initial cutoff of \(0.5\%\) to determine the potential genotype priors. For this cutoff we examined the zygousity state, such as homozygousity, heterozygousity and so on.

With the selected cutoff we saw that there are 4 zygousity states.

Observations

This section is editable by clicking on the edit button below. To refresh the section click on the refresh button

You can access the file also from here

Conclusions

From the results we believe that the cutoff for this group should be

and for the adjusted states the allele combinations and the relations are stated in the table below.

Allele specific cutoff

IGHV4-4 - G40

Allele appearnce

The group of IGHV4-4 includes 7 alleles, 7 out of the alleles are functional.

For each allele we counted the number of appearances across the population, any appearance was considered valid.

Group alignment

Based on the viewd alleles, we calculated the distance between the germline sequences.

Sequence depth

To examine the potential cutoff we observed the sequence depth for each allele

Absolute cutoff

We set an initial cutoff of \(0.5\%\) to determine the potential genotype priors. For this cutoff we examined the zygousity state, such as homozygousity, heterozygousity and so on.

With the selected cutoff we saw that there are 2 zygousity states.

Observations

This section is editable by clicking on the edit button below. To refresh the section click on the refresh button

You can access the file also from here

Conclusions

From the results we believe that the cutoff for this group should be

and for the adjusted states the allele combinations and the relations are stated in the table below.

Allele specific cutoff

IGHV4-4/IGHV4-59 - G41

Allele appearnce

The group of IGHV4-4/IGHV4-59 includes 15 alleles, 15 out of the alleles are functional.

For each allele we counted the number of appearances across the population, any appearance was considered valid.

Group alignment

Based on the viewd alleles, we calculated the distance between the germline sequences.

Sequence depth

To examine the potential cutoff we observed the sequence depth for each allele

Absolute cutoff

We set an initial cutoff of \(0.5\%\) to determine the potential genotype priors. For this cutoff we examined the zygousity state, such as homozygousity, heterozygousity and so on.

With the selected cutoff we saw that there are 4 zygousity states.

Observations

This section is editable by clicking on the edit button below. To refresh the section click on the refresh button

You can access the file also from here

Conclusions

From the results we believe that the cutoff for this group should be

and for the adjusted states the allele combinations and the relations are stated in the table below.

Allele specific cutoff

IGHV4-59 - G42

Allele appearnce

The group of IGHV4-59 includes 1 alleles, 1 out of the alleles are functional.

No rearrangments were found for this group, hence the general summary statistics do not apply here and were omitted.

Observations

This section is editable by clicking on the edit button below. To refresh the section click on the refresh button

You can access the file also from here

Conclusions

IGHV4-59 - G43

Allele appearnce

The group of IGHV4-59 includes 1 alleles, 1 out of the alleles are functional.

For each allele we counted the number of appearances across the population, any appearance was considered valid.

Sequence depth

To examine the potential cutoff we observed the sequence depth for each allele

Observations

For this group we’ve seen a single allele, hence the general summary statistics do not apply here and were omitted.

This section is editable by clicking on the edit button below. To refresh the section click on the refresh button

You can access the file also from here

Conclusions

IGHV4-61 - G44

Allele appearnce

The group of IGHV4-61 includes 8 alleles, 8 out of the alleles are functional.

For each allele we counted the number of appearances across the population, any appearance was considered valid.

Group alignment

Based on the viewd alleles, we calculated the distance between the germline sequences.

Sequence depth

To examine the potential cutoff we observed the sequence depth for each allele

Absolute cutoff

We set an initial cutoff of \(0.5\%\) to determine the potential genotype priors. For this cutoff we examined the zygousity state, such as homozygousity, heterozygousity and so on.

With the selected cutoff we saw that there are 2 zygousity states.

Observations

This section is editable by clicking on the edit button below. To refresh the section click on the refresh button

You can access the file also from here

Conclusions

From the results we believe that the cutoff for this group should be

and for the adjusted states the allele combinations and the relations are stated in the table below.

Allele specific cutoff

IGHV4-61 - G45

Allele appearnce

The group of includes 3 alleles, 3 out of the alleles are functional.

For each allele we counted the number of appearances across the population, any appearance was considered valid.

Group alignment

Based on the viewd alleles, we calculated the distance between the germline sequences.

Sequence depth

To examine the potential cutoff we observed the sequence depth for each allele

Absolute cutoff

We set an initial cutoff of \(0.5\%\) to determine the potential genotype priors. For this cutoff we examined the zygousity state, such as homozygousity, heterozygousity and so on.

With the selected cutoff we saw that there are 3 zygousity states.

Observations

This section is editable by clicking on the edit button below. To refresh the section click on the refresh button

You can access the file also from here

Conclusions

From the results we believe that the cutoff for this group should be

and for the adjusted states the allele combinations and the relations are stated in the table below.

Allele specific cutoff

IGHV5-10-1 - G46

Allele appearnce

The group of includes 4 alleles, 4 out of the alleles are functional.

For each allele we counted the number of appearances across the population, any appearance was considered valid.

Group alignment

Based on the viewd alleles, we calculated the distance between the germline sequences.

Sequence depth

To examine the potential cutoff we observed the sequence depth for each allele

Absolute cutoff

We set an initial cutoff of \(0.5\%\) to determine the potential genotype priors. For this cutoff we examined the zygousity state, such as homozygousity, heterozygousity and so on.

With the selected cutoff we saw that there are 2 zygousity states.

Observations

This section is editable by clicking on the edit button below. To refresh the section click on the refresh button

You can access the file also from here

Conclusions

From the results we believe that the cutoff for this group should be

and for the adjusted states the allele combinations and the relations are stated in the table below.

Allele specific cutoff

IGHV5-51 - G47

Allele appearnce

The group of includes 7 alleles, 7 out of the alleles are functional.

For each allele we counted the number of appearances across the population, any appearance was considered valid.

Group alignment

Based on the viewd alleles, we calculated the distance between the germline sequences.

Sequence depth

To examine the potential cutoff we observed the sequence depth for each allele

Absolute cutoff

We set an initial cutoff of \(0.5\%\) to determine the potential genotype priors. For this cutoff we examined the zygousity state, such as homozygousity, heterozygousity and so on.

With the selected cutoff we saw that there are 3 zygousity states.

Observations

This section is editable by clicking on the edit button below. To refresh the section click on the refresh button

You can access the file also from here

Conclusions

From the results we believe that the cutoff for this group should be

and for the adjusted states the allele combinations and the relations are stated in the table below.

Allele specific cutoff

IGHV6-1 - G48

Allele appearnce

The group of includes 3 alleles, 3 out of the alleles are functional.

For each allele we counted the number of appearances across the population, any appearance was considered valid.

Group alignment

Based on the viewd alleles, we calculated the distance between the germline sequences.

Sequence depth

To examine the potential cutoff we observed the sequence depth for each allele

Absolute cutoff

We set an initial cutoff of \(0.5\%\) to determine the potential genotype priors. For this cutoff we examined the zygousity state, such as homozygousity, heterozygousity and so on.

With the selected cutoff we saw that there are 2 zygousity states.

Observations

This section is editable by clicking on the edit button below. To refresh the section click on the refresh button

You can access the file also from here

Conclusions

From the results we believe that the cutoff for this group should be

and for the adjusted states the allele combinations and the relations are stated in the table below.

Allele specific cutoff

IGHV7-4-1 - G49

Allele appearnce

The group of includes 5 alleles, 5 out of the alleles are functional.

For each allele we counted the number of appearances across the population, any appearance was considered valid.

Group alignment

Based on the viewd alleles, we calculated the distance between the germline sequences.

Sequence depth

To examine the potential cutoff we observed the sequence depth for each allele

Absolute cutoff

We set an initial cutoff of \(0.5\%\) to determine the potential genotype priors. For this cutoff we examined the zygousity state, such as homozygousity, heterozygousity and so on.

With the selected cutoff we saw that there are 3 zygousity states.

Observations

This section is editable by clicking on the edit button below. To refresh the section click on the refresh button

You can access the file also from here

Conclusions

From the results we believe that the cutoff for this group should be

and for the adjusted states the allele combinations and the relations are stated in the table below.

Allele specific cutoff